1. Kinematics-Part II Kinematics-Part I Velocity: Position: Acceleration:
-Explain how to calculate acceleration from a velocity-time graph.
-Show how to calculate instantaneous velocity and average velocity and show the difference between the two of them.
-Show on a velocity-time graph the following segments for an object moving at:
Constant velocity in the positive direction.
Speeding up in the positive direction.
Moving in the positive direction and slowing down.
Standing still
Moving with a negative velocity.
Acceleration:
Write down the average acceleration equation.
Name three things you could do to accelerate.
Explain how acceleration is different from velocity.
Kinematics-Part I
Define the indicate the units for the following:
position, distance, displacement, speed, velocity, acceleration, vector, scalar, acceleration due to gravity on Earth
Position:
-Explain how to calculate velocity from a position-time graph.
-Show how to calculate displacement.
-Show how to calculate distance.
-Show on a position-time graph the following segments for an object moving at:
Constant velocity in the positive direction.
Speeding up in the positive direction.
Moving in the positive direction and slowing down.
Standing still
Moving with a negative velocity.

2. Kinematics-Part III Kinematics Problems:
-Write down the kinematics equations for finding change in velocity, acceleration, and time.
Solve the following problems using GUIDE:
A ball, which is rolling straight down a hill, has an acceleration of 4 m/s2. If the ball starts from rest, what is the ball’s velocity after 3 seconds?
A glider starts from rest and accelerates for 45 seconds. The final speed of the glider is 103 m/s. Find the average acceleration of the glider.
How long does it take a truck to increase its speed by 20m/s if it has an acceleration of 2m/s2?